EE 528 Digital Communications | KSU Faculty
Text Book:
John G. Proakis and Masoud Salehi, Digital Communications, McGraw-Hill, Fifth Edition, 2008
Andrea Goldsmith, Wireless Communications, Cambridge University Press, 2005.
References:
- Robert G. Gallager, Principles of Digital Communications, Cambridge University Press, 2008.
- J. Proakis, M. Salehi, and G. Bauch, Contemporary Communication Systems using Matlab, Cengage Learning, 2013,
Course Description:
Review of random processes; Binary detection theory; Representation of band-pass signals and systems; Signal space representation; Optimum receivers for the Additive White Gaussian Noise channel AWGN; Performance of the optimum receiver for memory-less modulation; M-ary modulation; Representation and spectral characteristics of digitally modulated signals; Signal design for band-limited channels; Digital communications over fading multi-path channels; Introduction to spread spectrum signals.
Prerequisite:
EE 502: Modelling of Stochastic Engineering Systems, signals and systems, and
undergraduate course in Digital Communications.
Course Outline
- Introduction to Digital Communications (Chapter 1)
- Deterministic and Random Signal Analysis (Chapter 2)
- Digital Modulation Schemes (Chapter 3)
- Optimum Receivers for AWGN Channels (Chapter 4)
- Linear Block Codes (Chapter 7)
- Trellis Based Codes (Chapter 8)
- Digital Communications Through Band-Limited Channels (Chapter 9)
- Fading Channels (Chapter 13)
- Adaptive Modulation and Coding (Chapter 9 Goldsmith)
- Multiple-Antenna Systems (Proakis Ch. 15 & Goldsmith Ch. 10)
- Multicarrier Systems (Proakis Ch. 11 & Goldsmith Ch. 12)
- Spread Spectrum (Proakis Ch. 12 & Goldsmith Ch. 13. )